#include <stdio.h> #include <string.h> #include <stdlib.h> #include <xtables.h> #include <linux/netfilter_ipv6/ip6t_rt.h> #include <arpa/inet.h> enum { O_RT_TYPE = 0, O_RT_SEGSLEFT, O_RT_LEN, O_RT0RES, O_RT0ADDRS, O_RT0NSTRICT, F_RT_TYPE = 1 << O_RT_TYPE, F_RT0ADDRS = 1 << O_RT0ADDRS, }; static void rt_help(void) { printf( "rt match options:\n" "[!] --rt-type type match the type\n" "[!] --rt-segsleft num[:num] match the Segments Left field (range)\n" "[!] --rt-len length total length of this header\n" " --rt-0-res check the reserved field too (type 0)\n" " --rt-0-addrs ADDR[,ADDR...] Type=0 addresses (list, max: %d)\n" " --rt-0-not-strict List of Type=0 addresses not a strict list\n", IP6T_RT_HOPS); } #define s struct ip6t_rt static const struct xt_option_entry rt_opts[] = { {.name = "rt-type", .id = O_RT_TYPE, .type = XTTYPE_UINT32, .flags = XTOPT_INVERT | XTOPT_PUT, XTOPT_POINTER(s, rt_type)}, {.name = "rt-segsleft", .id = O_RT_SEGSLEFT, .type = XTTYPE_UINT32RC, .flags = XTOPT_INVERT | XTOPT_PUT, XTOPT_POINTER(s, segsleft)}, {.name = "rt-len", .id = O_RT_LEN, .type = XTTYPE_UINT32, .flags = XTOPT_INVERT | XTOPT_PUT, XTOPT_POINTER(s, hdrlen)}, {.name = "rt-0-res", .id = O_RT0RES, .type = XTTYPE_NONE}, {.name = "rt-0-addrs", .id = O_RT0ADDRS, .type = XTTYPE_STRING}, {.name = "rt-0-not-strict", .id = O_RT0NSTRICT, .type = XTTYPE_NONE}, XTOPT_TABLEEND, }; #undef s static const char * addr_to_numeric(const struct in6_addr *addrp) { static char buf[50+1]; return inet_ntop(AF_INET6, addrp, buf, sizeof(buf)); } static struct in6_addr * numeric_to_addr(const char *num) { static struct in6_addr ap; int err; if ((err=inet_pton(AF_INET6, num, &ap)) == 1) return ≈ #ifdef DEBUG fprintf(stderr, "\nnumeric2addr: %d\n", err); #endif xtables_error(PARAMETER_PROBLEM, "bad address: %s", num); return (struct in6_addr *)NULL; } static int parse_addresses(const char *addrstr, struct in6_addr *addrp) { char *buffer, *cp, *next; unsigned int i; buffer = strdup(addrstr); if (!buffer) xtables_error(OTHER_PROBLEM, "strdup failed"); for (cp=buffer, i=0; cp && i<IP6T_RT_HOPS; cp=next,i++) { next=strchr(cp, ','); if (next) *next++='\0'; memcpy(&(addrp[i]), numeric_to_addr(cp), sizeof(struct in6_addr)); #if DEBUG printf("addr str: %s\n", cp); printf("addr ip6: %s\n", addr_to_numeric((numeric_to_addr(cp)))); printf("addr [%d]: %s\n", i, addr_to_numeric(&(addrp[i]))); #endif } if (cp) xtables_error(PARAMETER_PROBLEM, "too many addresses specified"); free(buffer); #if DEBUG printf("addr nr: %d\n", i); #endif return i; } static void rt_init(struct xt_entry_match *m) { struct ip6t_rt *rtinfo = (void *)m->data; rtinfo->segsleft[1] = ~0U; } static void rt_parse(struct xt_option_call *cb) { struct ip6t_rt *rtinfo = cb->data; xtables_option_parse(cb); switch (cb->entry->id) { case O_RT_TYPE: if (cb->invert) rtinfo->invflags |= IP6T_RT_INV_TYP; rtinfo->flags |= IP6T_RT_TYP; break; case O_RT_SEGSLEFT: if (cb->nvals == 1) rtinfo->segsleft[1] = rtinfo->segsleft[0]; if (cb->invert) rtinfo->invflags |= IP6T_RT_INV_SGS; rtinfo->flags |= IP6T_RT_SGS; break; case O_RT_LEN: if (cb->invert) rtinfo->invflags |= IP6T_RT_INV_LEN; rtinfo->flags |= IP6T_RT_LEN; break; case O_RT0RES: if (!(cb->xflags & F_RT_TYPE) || rtinfo->rt_type != 0 || rtinfo->invflags & IP6T_RT_INV_TYP) xtables_error(PARAMETER_PROBLEM, "`--rt-type 0' required before `--rt-0-res'"); rtinfo->flags |= IP6T_RT_RES; break; case O_RT0ADDRS: if (!(cb->xflags & F_RT_TYPE) || rtinfo->rt_type != 0 || rtinfo->invflags & IP6T_RT_INV_TYP) xtables_error(PARAMETER_PROBLEM, "`--rt-type 0' required before `--rt-0-addrs'"); rtinfo->addrnr = parse_addresses(cb->arg, rtinfo->addrs); rtinfo->flags |= IP6T_RT_FST; break; case O_RT0NSTRICT: if (!(cb->xflags & F_RT0ADDRS)) xtables_error(PARAMETER_PROBLEM, "`--rt-0-addr ...' required before `--rt-0-not-strict'"); rtinfo->flags |= IP6T_RT_FST_NSTRICT; break; } } static void print_nums(const char *name, uint32_t min, uint32_t max, int invert) { const char *inv = invert ? "!" : ""; if (min != 0 || max != 0xFFFFFFFF || invert) { printf(" %s", name); if (min == max) { printf(":%s", inv); printf("%u", min); } else { printf("s:%s", inv); printf("%u",min); printf(":"); printf("%u",max); } } } static void print_addresses(unsigned int addrnr, struct in6_addr *addrp) { unsigned int i; for(i=0; i<addrnr; i++){ printf("%c%s", (i==0)?' ':',', addr_to_numeric(&(addrp[i]))); } } static void rt_print(const void *ip, const struct xt_entry_match *match, int numeric) { const struct ip6t_rt *rtinfo = (struct ip6t_rt *)match->data; printf(" rt"); if (rtinfo->flags & IP6T_RT_TYP) printf(" type:%s%d", rtinfo->invflags & IP6T_RT_INV_TYP ? "!" : "", rtinfo->rt_type); print_nums("segsleft", rtinfo->segsleft[0], rtinfo->segsleft[1], rtinfo->invflags & IP6T_RT_INV_SGS); if (rtinfo->flags & IP6T_RT_LEN) { printf(" length"); printf(":%s", rtinfo->invflags & IP6T_RT_INV_LEN ? "!" : ""); printf("%u", rtinfo->hdrlen); } if (rtinfo->flags & IP6T_RT_RES) printf(" reserved"); if (rtinfo->flags & IP6T_RT_FST) printf(" 0-addrs"); print_addresses(rtinfo->addrnr, (struct in6_addr *)rtinfo->addrs); if (rtinfo->flags & IP6T_RT_FST_NSTRICT) printf(" 0-not-strict"); if (rtinfo->invflags & ~IP6T_RT_INV_MASK) printf(" Unknown invflags: 0x%X", rtinfo->invflags & ~IP6T_RT_INV_MASK); } static void rt_save(const void *ip, const struct xt_entry_match *match) { const struct ip6t_rt *rtinfo = (struct ip6t_rt *)match->data; if (rtinfo->flags & IP6T_RT_TYP) { printf("%s --rt-type %u", (rtinfo->invflags & IP6T_RT_INV_TYP) ? " !" : "", rtinfo->rt_type); } if (!(rtinfo->segsleft[0] == 0 && rtinfo->segsleft[1] == 0xFFFFFFFF)) { printf("%s --rt-segsleft ", (rtinfo->invflags & IP6T_RT_INV_SGS) ? " !" : ""); if (rtinfo->segsleft[0] != rtinfo->segsleft[1]) printf("%u:%u", rtinfo->segsleft[0], rtinfo->segsleft[1]); else printf("%u", rtinfo->segsleft[0]); } if (rtinfo->flags & IP6T_RT_LEN) { printf("%s --rt-len %u", (rtinfo->invflags & IP6T_RT_INV_LEN) ? " !" : "", rtinfo->hdrlen); } if (rtinfo->flags & IP6T_RT_RES) printf(" --rt-0-res"); if (rtinfo->flags & IP6T_RT_FST) printf(" --rt-0-addrs"); print_addresses(rtinfo->addrnr, (struct in6_addr *)rtinfo->addrs); if (rtinfo->flags & IP6T_RT_FST_NSTRICT) printf(" --rt-0-not-strict"); } static int rt_xlate(struct xt_xlate *xl, const struct xt_xlate_mt_params *params) { const struct ip6t_rt *rtinfo = (struct ip6t_rt *)params->match->data; char *space = ""; if (rtinfo->flags & IP6T_RT_TYP) { xt_xlate_add(xl, "rt type%s %u", (rtinfo->invflags & IP6T_RT_INV_TYP) ? " !=" : "", rtinfo->rt_type); space = " "; } if (!(rtinfo->segsleft[0] == 0 && rtinfo->segsleft[1] == 0xFFFFFFFF)) { xt_xlate_add(xl, "%srt seg-left%s ", space, (rtinfo->invflags & IP6T_RT_INV_SGS) ? " !=" : ""); if (rtinfo->segsleft[0] != rtinfo->segsleft[1]) xt_xlate_add(xl, "%u-%u", rtinfo->segsleft[0], rtinfo->segsleft[1]); else xt_xlate_add(xl, "%u", rtinfo->segsleft[0]); space = " "; } if (rtinfo->flags & IP6T_RT_LEN) { xt_xlate_add(xl, "%srt hdrlength%s %u", space, (rtinfo->invflags & IP6T_RT_INV_LEN) ? " !=" : "", rtinfo->hdrlen); } if (rtinfo->flags & (IP6T_RT_RES | IP6T_RT_FST | IP6T_RT_FST_NSTRICT)) return 0; return 1; } static struct xtables_match rt_mt6_reg = { .name = "rt", .version = XTABLES_VERSION, .family = NFPROTO_IPV6, .size = XT_ALIGN(sizeof(struct ip6t_rt)), .userspacesize = XT_ALIGN(sizeof(struct ip6t_rt)), .help = rt_help, .init = rt_init, .x6_parse = rt_parse, .print = rt_print, .save = rt_save, .x6_options = rt_opts, .xlate = rt_xlate, }; void _init(void) { xtables_register_match(&rt_mt6_reg); }